2024年发表论文

1. G. Wang et.al.; “Pressure-Induced Superconductivity In Polycrystalline La3Ni2O7−x”; Physical Review X (2024) 14, 011040. 【PDF】
2. N. N. Wang et.al.; “Pressure-induced linear enhancement of the superconducting transition in Nd0.8Sr0.2NiO2 thin films”; J. Phys.: Condens. Matter (2024) 36, 125601.【PDF】
3. B. Liu et.al.; “Possible quantum-spin-liquid state in van der Waals cluster magnet Nb3Cl8”; J. Phys.: Condens. Matter (2024) 36, 155602.【PDF】

2023年发表论文

1. P. F. Shan et.al.; “Pressure-induced metallic state in a van der Waals cluster Mott insulator Nb3Cl8”; Materials Today Physics (2023) 38, 101267.【PDF】
2. P. F. Shan et.al.; “Complex evolution of the magnetic transitions and unexpected absence of bulk superconductivity in chemically precompressed NaMn6Bi5”; Physical Review B (2023) 107, 094519.【PDF】
3. P. F. Shan et.al.; “Pressure-enhanced superconducting transition in the inter-block-layer electron-transfer superconductor BaTh2Fe4As4(N0.7O0.3)2”; Physical Review Materials (2023) 7, 124801. 【PDF】
4. J. Hou et.al.; “Effect of hydrostatic pressure on the unconventional charge density wave and superconducting properties in two distinct phases of doped kagome superconductors CsV3−xTixSb5”; Physical Review B (2023) 107, 144502.【PDF】
5. L. F. Shi et.al.; “Pressure-driven evolution of upper critical field and Fermi surface reconstruction in the strong-coupling superconductor Ti4Ir2O”; Physical Review B (2023) 107, 174525.【PDF】
6. J. Hou et.al.; “Emergence of High-Temperature Superconducting Phase in Pressurized La3Ni2O7 Crystals”; Chinese Physics Letters (2023) 40, 117302. 【PDF】
7. N. N. Wang et.al.; “Percolation-induced resistivity drop in lutetium dihydride with controllable electrical conductivity over six orders of magnitude”; SCPMA (2023) 66, 297412.【PDF】
8. P. F. Shan et.al.; “Pressure-Induced Color Change in the Lutetium Dihydride LuH2”; Chinese Physics Letters (2023) 40, 046101.【PDF】
9. Z. Y. Liu et.al.; “Effect of hydrostatic pressure on the superconducting properties of quasi-one-dimensional superconductor RbCr3As3”; SCPMA (2023) 53, 127417. 【PDF】
10. H. L. Sun et.al.; “Signatures of superconductivity near 80 K in a nickelate under high pressure”; Nature (2023) 621, 493.【PDF】
11. Z. X. Li et.al.; “Suppressed charge-density-wave, robust ferromagnetism and Lifshitz transition in Sm2Ru3Ge5 crystal under high pressure”; Journal of Alloys and Compounds (2023) 937, 168337.【PDF】
12. Z. H. Yu et.al.; “Structure, Magnetotransport, and Theoretical Study on the Layered Antiferromagnet Topological Phase EuCd2As2 under High Pressure”; Adv. Quantum Technol. (2023) 6, 2200128. 【PDF】
13. X. Zhao et.al.; “Pressure tuning of optical reflectivity in LuH2”; Science Bulletin (2023) 68, 883.【PDF】
14. S. E. Dissanayake et.al.; “Helical magnetic state in the vicinity of the pressure-induced superconducting phase in MnP”; Physical Review Research (2023) 5, 043026.【PDF】
15. H. M. Ma et.al.; “Atomic coordinates of CeNiC2 under pressure: Switching of the Ce-Ce first nearest neighbor direction”; Physical Review B (2023) 108, 064435.【PDF】
16. C. Liu et.al.; “Phases and magnetism at microscale in compounds containing nominal Pb10−xCux(PO4)6O”; Physical Review B (2023) 7, 084804. 【PDF】

2022年发表论文

1. N. N. Wang et.al.; “Pressure-induced monotonic enhancement of Tc to over 30K in superconducting Pr0.82Sr0.18NiO2 thin films”; Nat. Commun. (2022) 31, 4367.【PDF】
2. P. T. Yang et.al.; “Pressured-induced superconducting phase with large upper critical field and concomitant enhancement of antiferromagnetic transition in EuTe2”; Nat. Commun. (2022) 31, 2975.【PDF】
3. Z. Y. Liu et.al.; “Pressure-Induced Superconductivity up to 9 K in the Quasi-One-Dimensional KMn6Bi5”; Physical Review Letters (2022) 128, 187001. 【PDF】
4. H. X. Li et.al.; “Discovery of conjoined charge density waves in the kagome superconductor CsV3Sb5”; Nat. Commun. (2022) 31, 6348.【PDF】
5. L. F. Shi et.al.; “Pressure effect in the antiperovskite phosphide superconductor Sr(Pt0.9Pd0.1)3P”; Physical Review B (2022) 105, 214529.【PDF】
6. X. X. Zhang et.al.; “Electronic and magnetic properties of intermetallic kagome magnets RV6Sn6 (R = Tb - Tm)”; Physical Review Materials (2022) 6, 105001. 【PDF】
7. H. T. Yang et.al.; “Titanium doped kagome superconductor CsV3-xTixSb5 and two distinct phases”; Science Bulletin (2022) 67, 2176.【PDF】
8. P. T. Yang et.al.; “Emergence of Superconductivity on the Border of Antiferromagnetic Order in RbMn6Bi5 under High Pressure: A New Family of Mn-Based Superconductors”; Chin. Phys. Lett. (2022) 39, 067401.【PDF】
9. X. X. Zhang et.al.; “Destabilization of the Charge DensityWave and the Absence of Superconductivity in ScV6Sn6 under High Pressures up to 11 GPa”; Materials (2022) 15, 7372. 【PDF】
10. L. F. Shi et.al.; “Pressure-driven superconducting dome in the vicinity of CDW in the pyrite-type superconductor CuS2”; Physical Review Materials (2022) 6, 014802.【PDF】
11. N. N. Wang et.al.; “A density-wave-like transition in the polycrystalline V3Sb2 sample with bilayer kagome lattice”; Chin. Phys. B (2022) 31, 017106.【PDF】
12. F. Hong et.al.; “Possible superconductivity at ~70 K in tin hydride SnHx under high pressure”; Materials Today Physics (2022) 22, 100596. 【PDF】
13. J. P. Sun et.al.; “Pressure effects on the tetragonal FeS superconductor”; Chinese Journal of High-Pressure Physics (2022) 36, 060101.【PDF】
14. J. G. Cheng et.al.; “Temperature-Pressure Phase Diagram and Possible Pressure-Driven New Electronic Phase in the Polar Metal LiOsO3”; ECS J. Solid State Sci. Technol. (2022) 11, 023008.【PDF】
15. Y. Zhao et.al.; “Pressure-Induced Superconductivity in PdTeI with Quasi-One-Dimensional PdTe Chains”; Crystals (2022) 12, 1833.【PDF】
16. L. Y. Zeng et.al.; “Interplay between Charge-Density-Wave, Superconductivity, and Ferromagnetism in CuIr2−xCrxTe4 Chalcogenides”; J. Phys. Chem. Lett. (2022) 13, 2442. 【PDF】
17. M. Boubeche et.al.; “Superconducting dome associated with the suppression and re-emergence of charge density wave states upon sulfur substitution in CuIr2Te4 chalcogenides”; J. Phys.: Condens. Matter (2022) 34 205602. 【PDF】
18. T. Xia et.al.; “Thermochemical Mechanism of Optimized Lanthanum Chromite Heaters for High-Pressure and High-Temperature Experiments”; ACS Appl. Mater. Interfaces (2022) 14, 32244. 【PDF】
19. J. X. Wang et.al.; “Pressure-Induced Metallization of Lead-Free Halide Double Perovskite (NH4)2PtI6”; Adv. Sci. (2022) 9, 2203442.【PDF】
20. Y. M. Cao et.al.; “Manipulation of magnetic configuration by isotropic pressure in NdFeO3”; Journal of Alloys and Compounds (2022) 908, 164697. 【PDF】
21. X. Chen et.al.; “Superatomic-Charge-Density-Wave in Cluster-Assembled Au6Te12Se8 Superconductors”; J. Am. Chem. Soc. (2022) 144, 20915.【PDF】
22. M. Sahu et.al.; “Pressure driven phase transitions in honeycomb Fe4Nb2O9: A possible re-entrant multiferroic behavior”; J. Appl. Phys. (2022) 131, 084101.【PDF】
23. J. Zhou et.al.; “Anticollinear order and degeneracy lifting in square lattice antiferromagnet LaSrCrO4”; Phys. Rev. B (2022) 105, L180411. 【PDF】
24. R. X. Xue et.al.; “Correlation between boson peak and thermal expansion manifested by physical aging and high pressure”; Sci. China-Phys. Mech. Astron. (2022) 65, 246111. 【PDF】

2021年发表论文

1. K. Y. Chen=, N. N. Wang=, Q. W. Yin=, Y. H. Gu, K. Jiang, Z. J. Tu, C. S. Gong, Y. Uwatoko, J. P. Sun*, H. C. Lei*, J. P. Hu, and J.-G. Cheng*;“Double superconducting dome and triple enhancement of Tc in the kagome superconductor CsV3Sb5 under high pressure”; Physical Review Letters, (2021) 126, 247001. 【PDF】
2. N. N. Wang=, K. Y. Chen=, Q. W. Yin=, Y. N. N. Ma, B. Y. Pan, X. Yang, X. Y. Ji, S. L. Wu, P. F. Shan, S. X. Xu, Z. J. Tu, C. S. Gong, G. T. Liu, G. Li, Y. Uwatoko, X. L. Dong, H. C. Lei*, J. P. Sun*, and J.-G. Cheng*; “Competition between charge-density-wave and superconductivity in the kagome metal RbV3Sb5”; Phys. Rev. Research, (2021) 3, 043018.【PDF】
3. L. M. Liu=, C. J. Zhu=, Z. Y. Liu=, H. B. Deng, X. B. Zhou, Y. Li, Y. K. Sun, X. Huang, S. S. Li, X. Du, Z. Wang, T. Guan, H. Q. Mao, Y. Sui, R. Wu, J. X. Yin,* J.-G. Cheng*, and Shuheng H. Pan*;"Thermal Dynamics of Charge Density Wave Pinning in ZrTe3";Physical Review Letters, (2021) 126, 256401. 【PDF】
4. Z. Y. Liu, P. F. Shan, K. Y. Chen, Madalynn Marshall, S. Zhang, T. Yong, H. S. Deng, X. Yin, Y. Ding, H. M. Weng, Y. Uwatoko, Przemyslaw Dera, W. W. Xie, Y. Sui,* and J.-G. Cheng†;"High-pressure insulating phase of Mo4O11 with collapsed volume";PHYSICAL REVIEW B 104, 024105 (2021).【PDF】
5. Z. Y. Liu, J. Li, J. F. Zhang, J. Li, P. T. Yang, S. Zhang*, G. F. Chen, Y. Uwatoko, H. X. Yang, Y. Sui*, K. Liu* and J.-G. Cheng*; "Quasi-one-dimensional superconductivity in the pressurized charge-density-wave conductor HfTe3";npj Quantum Materials (2021) 6, 90. 【PDF】
6. X. Rao, G. Hussain, Q. Huang, W. J. Chu, N. Li, X. Zhao, Z. Dun, E. S. Choi, T. Asaba, L. Chen, L. Li, X. Y. Yue, N. N. Wang, J.-G. Cheng, Y. H. Gao, Y. Shen, J. Zhao, G. Chen*, H. D. Zhou* and X. F. Sun*;"Survival of itinerant excitations and quantum spin state transitions in YbMgGaO4 with chemical disorder";Nat. Commun. 12, 4949 (2021).【PDF】
7. L. Zhao,* C. J. Yi,* C. T. Wang,* Z. H. Chi,* Y. Y. Yin, X. L. Ma, J. H. Dai, P. T. Yang, B. B. Yue, J. G. Cheng, F. Hong, J. T. Wang,† Y. H. Han,‡ Y. G. Shi,§ and X. H. Yu*;"Monoclinic EuSn2As2: A Novel High-Pressure Network Structure";Physical Review Letters, (2021) 126, 155701. 【PDF】
8. T. Takenaka*, K. Ishihara*, M. Roppongi, Y. Miao, Y. Mizukami, T. Makita, J. Tsurumi, S. Watanabe, J. Takeya, M. Yamashita, K. Torizuka, Y. Uwatoko, T. Sasaki, X. Huang, W. Xu, D. Zhu, N. Su, J.-G. Cheng, T. Shibauchi†, K. Hashimoto†;"Strongly correlated superconductivity in a copper-based metal-organic framework with a perfect kagome lattice";Sci. Adv., (2021) 7, eabf3996.【PDF】
9. N. N. Wang, P. F. Shan, K. Y. Chen, J. P. Sun, P. T. Yang, X. L. Ma, B. S. Wang, X. H. Yu, S. Zhang, G. F. Chen, J.-G. Cheng*, X. L. Dong, X. H. Chen and Z. X. Zhao; “A low-Tc superconducting modification of Th4H15 synthesized under high pressure”; Supercond. Sci. Technol., (2021) 34, 034006.【PDF】
10. J.-G. Cheng*, J. P. Sun; “Pressure effects on the FeSe-based superconductors”; Sci Sin-Phys Mech Astron, (2021) 51, 047403.【PDF】
11. S. X. Xu=, J. J. Gao=, Z. Y. Liu, K. Y. Chen, P. T. Yang, S. J. Tian, C. S. Gong, J. P. Sun, M. Q. Xue, J. Gouchi, X. Luo†, Y. P. Sun, Y. Uwatoko, H. C. Lei‡, B. S. Wang§, and J. G. Cheng; “Effects of disorder and hydrostatic pressure on charge density wave and superconductivity in 2H-TaS2”; Physical Review B (2021) 103, 224509.【PDF】
12. S. X. Xu, P. T. Yang, K. Y. Chen, Z. Y. Liu, W. W. Cui, Q. Hu, J. P. Sun, R. Ang*, Y. Uwatoko, B. S. Wang*, and J. G. Cheng;“Superconducting phase diagram and the evolution of electronic structure across charge density wave in underdoped 1T-CuδTiSe2 under hydrostatic pressure”; Physical Review B (2021) 104, 134503. 【PDF】
13. S. L. Ni=, S. Ma=, Y. H. Zhang=, J. Yuan, H. T. Yang*, Z. Y. W. Lu, N. N. Wang, J. P. Sun, Z. Zhao, D. Li, S. B. Liu, H. Zhang, H. Chen, K. Jin, J. G. Cheng, L. Yu*, F. Zhou, X. L. Dong*, J. P. Hu, H. J. Gao, and Z. X. Zhao; “Anisotropic Superconducting Properties of Kagome Metal CsV3Sb5”; Chinese Physics Letters (2021) 38, 057403.【PDF】
14. Q. Y. Liu, H. L. Wang, X. Z. Liu,* L. Tao, J. Liu, D. F. Chen, K. Sun, Z. Y. Liu, J. G. Cheng, M. X. Huo, X. J. Wang, and Y. Sui*; "Unusual magnetic and magnetostriction behavior around the magnetic compensation temperature in Co2TiO4";PHYSICAL REVIEW B 104, 064407 (2021).【PDF】
15. J. Zhang, N. Su, X. R. Mi, M. C. Pi, H. D. Zhou, J. G. Cheng, and Y. S. Chai*;"Probing magnetic symmetry in antiferromagnetic Fe4Nb2O9 single crystals by linear magnetoelectric tensor";PHYSICAL REVIEW B 103, L140401 (2021).【PDF】
16. X. L. Ma, Y. M. Wang, Y. Y. Yin, B. B. Yue, J. H. Dai, J. G. Cheng, J. T. Ji, F. Jin, F. Hong*, J. T. Wang*, Q. M. Zhang*, X. H. Yu*;"Dimensional crossover tuned by pressure in layered magnetic NiPS3";Sci Sin-Phys Mech Astron, (2021) 64, 297011.【PDF】
17. M. Boubeche, N. N. Wang, J. P. Sun, P. T. Yang, L. Y. Zeng, Q. Z. Li, Y. Y. He, S. J. Luo, J. G. Cheng, Y. Y. Peng, and H. X. Luo*; “Anomalous charge density wave state evolution and dome-like superconductivity in CuIr2Te4−xSex chalcogenides”; Supercond. Sci. Technol., (2021) 34, 115003.【PDF】
18. Y. Y. Jiao*, J. P. Sun, Q. Cui; “Critical behavior and effect of Sr substitution in double perovskite Ca2CrSbO6”; Chin. Phys. B (2021) 30, 037501.【PDF】
19. 单鹏飞, 王宁宁, 孙建平, 程金光*; “富氢高温超导材料”; 物理 (2021) 50, 217-227. 【PDF】

2020年发表论文

1. J. P. Sun, M. Z. Shi, B. Lei, S. X. Xu, Y. Uwatoko, X. H. Chen*, J.-G. Cheng*; “Pressure-induced second high-T_c superconducting phase in the organic-ion-intercalated (CTA)_0.3FeSe single crystal”; EPL, (2020) 130, 67004【PDF】
2. S. X. Xu, S. Xu, J. P. Sun, B. S. Wang, Y. Uwatoko, T. L. Xia, J.-G. Cheng*; “Pressure effect on the magnetoresistivity of topological semimetal RhSn”; Journal of Physics: Condensed Matters (2020) 32, 355601.【PDF】
3. S. X. Xu, Y. T. Zou, J. P. Sun, Z. Y. Liu, X. H. Yu, J. Gouchi, Y. Uwatoko, Z. G. Cheng*, B. S. Wang*, and J.-G. Cheng*; “Physical properties and pressure-induced superconductivity in the single-crystalline band insulator SnO”; Physical Review B (2020) 101, 104501.【PDF】
4. Z. Y. Liu=, Q. X. Dong=, P. F. Shan=, Y. Y. Wang, J. H. Dai, R. Jana, K. Y. Chen, J. P. Sun, B. S. Wang, X. H. Yu, G. T. Liu, Y. Uwatoko, Y. Sui, H. X. Yang, G. F. Chen*, J.-G. Cheng*; “Pressure-induced metallization and structural phase transition in the quasi-one-dimensional TlFeSe2”; Chinese Physics Letters (2020) 37, 047102.【PDF】
5. Z. Y. Liu=, T. Zhang=, S. X. Xu, P. T. Yang, Q. Wang, H. C. Lei, Y. Sui, Y. Uwatoko, B. S. Wang, H. M. Weng,* J. P. Sun,* and J.-G. Cheng; “Pressure effect on the anomalous Hall effect of ferromagnetic Weyl semimetal Co3Sn2S2”; Physical Review Materials (2020) 4, 044203. 【PDF】
6. J. S. Zhang=, Y. Q. Xie=, X. Q. Liu, A. Razpopov, V. Borisov, C. Wang, J. P. Sun, Y. Cui, J. C. Wang, X. Ren, H. S. Deng, X. Yin, Y. Ding, Y. Li*, J.-G. Cheng*, J. Feng, R. Valenti, B. Normand, and W. Q. Yu*; “Giant pressure-enhancement of multiferroicity in CrBr2”; Physical Review Research (2020) 2, 013144. 【PDF】
7. B. Z. Li, C. Wang, P. T. Yang, J. P. Sun, Y. B. Liu, J. F. Wu, Z. Ren, J.-G. Cheng, G. M. Zhang, G. H. Cao; “Metal-to-metal transition and heavy-electron state in Nd4Ni3O10−δ”; Physical Review B (2020) 101, 195142【PDF】
8. B. Huang=, Z. Y. Liu=,Y. F. Han, S. Zhao, M. X. Wu, C. E. Frank, M. Greenblatt, M. Croft, N. F. Quackenbush, S. Z. Liu, T. A. Tyson, L. Zhang, J. L. Sun, P. F. Shan, J. H. Dai, X. H. Yu, J.-G. Cheng*, and M.-R. Li*; “Nonmetallic metal toward a pressure-induced bad-metal state in two-dimensional Cu3LiRu2O6”; Chemical Communication (2020) 56, 265.【PDF】
9. Q. Cui, Y. Q. Cai, X. Li, Z. L. Dun, P. J. Sun, J.-S. Zhou, H. D. Zhou, and J.-G. Cheng*; “High pressure synthesis and characterization of the pyrochlore Dy2Pt2O7: A new spin ice material”; Chinese Physics B (2020) 29, 047502. 【PDF】
10. Z. P. Yu, Y. Z. Zhang, K. Zhai*, C. Liu, A. M. Nie*, N. Su, J.-G. Cheng, F. S. Wen, J. Y. Xiang, C. P. Mu, B. C. Wang, H. T. Wang, Y. J. Tian and Z. Y. Liu*; “Room-temperature electric field modulation of magnetization in a helimagnet”; Journal of Physics D: Applied Physics (2020) 53, 025001. 【PDF】
11. D. S. Wu=, Y. T. Qian=, Z. Y. Liu, W. Wu, Y. J. Li, S. H. Na, Y. T. Shao, P. Zheng, G. Li, J.-G. Cheng, H. M. Weng, and J. L. Luo*; “Single crystal growth, structural, and transport properties of bad metal RhSb2”; Chinese Physical B (2020) 29, 037101. 【PDF】
12. Q. Cui, Q. Huang, J. A. Alonso, D. Sheptyakov, C. R. De la Cruz, M. T. Fernández-Díaz, N. N. Wang, Y. Q. Cai, D. Li, X. L. Dong, H. D. Zhou, and J.-G. Cheng*; “Complex antiferromagnetic order in the garnet Co3Al2Si3O12”; Physical Review B (2020) 101, 144424.【PDF】
13. Y. Y. Jiao,# Y. W. Fang,# J. P. Sun, P. F. Shan, Z. H. Yu, H. L. Feng, B. S. Wang, H. M. Ma, Y. Uwatoko, K. Yamaura, Y. F. Guo,* H. H. Chen*, and J.-G. Cheng*; “Coupled magnetic and structural phase transitions in antiferromagnetic polar metal Pb2CoOsO6 under pressure”; Physical Review B (2020) 102, 144418.【PDF】
14. F. Hong#, L. X. Yang#, P. F. Shan, P. T. Yang, Z. Y. Liu, J. P. Sun, Y. Y. Yin, X. H. Yu*, J.-G. Cheng*, and Z. X. Zhao; “Superconductivity of lanthanum superhydride investigated using the standard four-probe configuration under high pressures”; Chinese Physics Letters (2020) 37, 107401.【PDF】
15. B. S. Wang, Y. Uwatoko, J.-G. Cheng, and Y. P. Sun; “Weak ferromagnetism and possible non-Fermi-liquid behavior in the itinerant electronic material Co3SnC”; Physical Review B (2020) 102, 085153. 【PDF】
16. Q.-Y. Liu, Y. Ma, Y. Sun, Z. Y. Liu, J.-G. Cheng, X. B. Zhou, L. Tao, M. X. Huo, X. J. Wang, and Y. Sui; “Unusual magnetostriction behavior and magnetoelectric effect in spinel MnV2O4”; Physical Review B (2020) 102, 144404.【PDF】
17. Q. Chen, A. Verrier, D. Ziat, A. J. Clune, R. Rouane, X. Bazier-Matte, G. Wang, S. Calder, K. M. Taddei, C. R. Dela Cruz, A. I. Kolesnikov, J. Ma, J.-G. Cheng, Z. Liu, J. A. Quilliam, J. L. Musfeldt, H. D. Zhou, and A. A. Aczel*; “Realization of the orbital-selective Mott state at the molecular level in Ba3LaRu2O9”; Physical Review Materials (2020) 4, 064409.【PDF】
18. S. Nakagawa, J. Gochi, T. Kuwayama, S. Nagasaki, T. Takahashi, J.-G. Cheng, Y. Uwatoko, and N. Fujiwara*; “Fabrication and evaluation via nuclear quadrupole resonance of a palm cubic-anvil pressure cell”; Rev. Sci. Instrum. (2020) 91, 073907.【PDF】
19. A. Singh, V. K. Gangwar, P. Shahi, D. Pal, R. Singh, S. Kumar, S. Singh, S. K. Gupta, S. Kumar, J.-G. Cheng, and S. Chatterjee; “Anomalous and topological Hall effect in Cu doped Sb2Te3 topological insulator”; Appl. Phys. Lett. 117, 092403 (2020).【PDF】
20. S. X. Xu, Z. Y. Liu, P. T. Yang, K. Y. Chen, J. P. Sun, J. H. Dai,Y. Y. Yin, F. Hong, X. H. Yu, M. Q. Xue, J. Gouchi, Y. Uwatoko, B. S. Wang, and J.-G. Cheng; “Superconducting phase diagrams of S-doped 2H-TaSe2 under hydrostatic pressure”; Physical Review B (2020) 102, 184511.【PDF】
21. Q. Cui, N. N. Wang, J. A. Alonso*, F. Fauth, and J.-G. Cheng*; “Structural evolution across the metal-insulator transition of strongly distorted Lu1-xScxNiO3 perovskite”; Materials Research Express (2020) 7, 126301.【PDF】

2019年发表论文

1. J. P. Sun, Y. Y. Jiao, C. J. Yi, S. E. Dissanayake, M. Matsuda, Y. Uwatoko, Y. G. Shi, Y. Q. Li, Z. Fang, and J.-G. Cheng*; “Magnetic competition induced colossal magnetoresistance in n-type HgCr2Se4 under high pressures”； Physical Review Letters (2019) 123, 047201.【PDF】
2. N. Su, F.-Y. Li, Y. Y. Jiao, Z. Y. Liu, J. P. Sun, B. S. Wang, Y. Sui, H. D. Zhou, G. Chen*, and J.-G. Cheng*；“Asymmetric ferromagnetic criticality in pyrochlore ferromagnet Lu2V2O7”; Science Bulletin (2019) 64, 1222-1227.【PDF】
3. Y. Y. Jiao, Z. Y. Liu, M. A. McGuire, S. Calder, J.-Q. Yan, B. C. Sales, J. P. Sun, Q. Cui, N. N. Wang, Y. Sui, Y. Uwatoko, B. S. Wang, X. L. Dong, and J.-G. Cheng*; “High-pressure phase of CrSb2: A new quasi-1D itinerant magnet with competing interactions”; Physical Review Materials (2019) 3, 074404. 【PDF】
4. K. Y. Chen, B. S. Wang, J.-Q. Yan, D. S. Parker, J.-S. Zhou, Y. Uwatoko, and J.-G. Cheng*; “Suppression of the antiferromagnetic metallic state in the pressurized MnBi2Te4 single crystal”; Physical Review Materials (2019) 3, 094201.【PDF】
5. R. Jana, D. Sheptyakov, X. Y. Ma, J. A. Alonso*, M. C. Pi, A. Muñoz, Z. Y. Liu, L. L. Zhao, N. Su, S. F. Jin, X. B. Ma, K. Sun, D. F. Chen, S. Dong, Y. S. Chai*, S. L. Li, and J.-G. Cheng*; “Low-temperature crystal and magnetic structures of the magnetoelectric material Fe4Nb2O9”; Physical Review B (2019) 100, 094109. 【PDF】
6. J. P. Sun, Z.-C. Wang, Z.Y. Liu, S. X. Xu, T. Eto, Y. Sui, B. S. Wang, Y. Uwatoko, G.-H. Cao, and J.-G. Cheng*; “Effect of pressure on the self-hole-doped superconductor RbGd2Fe4As4O2”; Journal of Physics: Condensed Matters (2019) 31, 044001.【PDF】
7. Qi Cui, N. N. Wang, N. Su, Y. Q. Cai, B. S. Wang, T. Shinmei, T. Irifune, Jose A. Alonso*, and J.-G. Cheng*; “Large reversible magnetocaloric effect in the ferromagnetic pyrochlores R2Mn2O7 (R = Dy, Ho, Yb)”; Journal of Magnetism and Magnetic Materials (2019) 490, 165494.【PDF】
8. Na Su, B. C. Qin, K. J. Zhu, Z. Y. Liu, P. Shahi, J. P. Sun, B. S. Wang, Y. Sui, Y. G. Shi, L. D. Zhao, and J.-G. Cheng*; “Pressure-induced enhancement of thermoelectric power factor in pristine and hole-doped SnSe crystals”; RSC Advances (2019) 9, 26831.【PDF】
9. X. Gui, G. J. Finkelstein, K. Y. Chen, T. Yong, P. Dera, J.-G. Cheng*, W. W. Xie*; “Pressure-induced large volume collapse, plane-to-chain, insulator to metal transition in CaMn2Bi2”; Inorganic Chemistry (2019) 58, 8933. 【PDF】
10. H. C. Zhao, J. H. Zhang, M. Lv, S. Bachus, Y. Tokiwa, P. Gegenwart, S. Zhang, J.-G. Cheng, Y.-F. Yang, G. F. Chen, Y. Isikawa, Q. M. Si*, F. Steglich*, and P. J. Sun*; “Quantum-critical phase from frustrated magnetism in a strongly correlated metal”; Nature Physics (2019) 15, 1261.【PDF】
11. Q. Chen, S. Y. Fan, K. M. Taddei, M. B. Stone, A. I. Kolesnikov, J.-G. Cheng, J. L. Musfeldt, H. D. Zhou, and A. A. Aczel*; “Large positive zero-field splitting in the cluster magnet Ba3CeRu2O9”; Journal of American Chemical Society (2019) 141, 9928.【PDF】
12. X. Li, D. Y. Chen, M. L. Jin, D. S. Ma, Y. F. Ge, J. P. Sun, W. H. Guo, J. F. Han, W. D. Xiao, J. X. Duan, Q. S. Wang, C. C. Liu, H. Sun, R. Q. Zou, J.-G. Cheng, C. Q. Jin, J. S. Zhou, J. B. Goodenough*, J. L. Zhu*, Y. G. Yao*; “Pressure-induced superconductivity and phase transition in a quasi-one-dimensional topological crystalline insulator Bi4Br4”; PNAS (2019) 116, 17696-17700. 【PDF】
13. K. Zhai*, N. Su, J. P. Sun, J.-G. Cheng, Z. Y. Liu, and Y. Sun; “Pressure effect on spin-driven multiferroicity in a Y-type hexaferrite”; Journal of Materials Chemistry C (2019) 7, 4173.【PDF】
14. J.-Q. Yan*, Q. Zhang, T. Heitmann, Z. L. Huang, K. Y. Chen, J.-G. Cheng, W. D. Wu, D. Vaknin, B. C. Sales, and R. J. McQueeney; “Crystal growth and magnetic structure of MnBi2Te4”; Physical Review Materials (2019) 3, 064202. 【PDF】
15. J. Y. Yang#, L. Hao#, Q. Cui, J. Q. Lin, L. Horak, X. R. Liu, L. Zhang, H. X. Yang, J. Karapetrova, J.-W. Kim, Phil J. Ryan, M. P. M. Dean, J.-G. Cheng, and J. Liu*; “Epitaxial growth and antiferromagnetism of Sn-substituted perovskite iridate SrIr0.8Sn0.2O3”; Physical Review Materials (2019) 3, 124411.【PDF】
16. J.-Q. Yan*, W. Tian, H. B. Cao, S. Chi, F. Ye, A. Llobet, A. Puretzky, Q. Chen, J. Ma, Y. Ren, J. -G. Cheng, J. -S. Zhou, M. A. McGuire, and R. J. McQueeney; “Lattice distortion in the spin-orbital entangled state in RVO3 perovskites”; Physical Review B (2019) 100， 184423.【PDF】
17. B. S. Wang*, Z.-C. Wang, K. Ishigaki, K. Matsubayashi, T. Eto, J. P. Sun, J.-G. Cheng, G. H. Cao, and Y. Uwatoko; “Pressure-induced enhancement of superconductivity and quantum criticality in ‘12442’-type hybrid structure superconductor KCa2Fe4As4F2”; Physical Review B (2019) 99, 014501.【PDF】
18. Z. Y. Liu, W. Wu*, Z. Z. Zhao, H. C. Zhao, J. Cui, P. F. Shan, J. H. Zhang, C. L. Yang, P. J. Sun, Y. Wei, S. L. Li, J. G. Zhao, Y. Sui, J.-G. Cheng, L. Lu, J. L. Luo*, and G. T. Liu*; “Superconductivity in the WP single crystal”; Physical Review B (2019) 99, 184509.【PDF】
19. P. Zheng, Q. Cui, Zh. G. Chen, J.-G. Cheng, X. R. Liu, Z. Q. Wang, and J. L. Luo; “An optical study on the possible Slater insulator SrIr0.8Sn0.2O3”; Physical Review B (2019) 100, 045101. 【PDF】
20. Q.-Y. Liu, Z. Y. Liu, X. B. Zhou, T. Yajima, Y. Uwatoko, J.-G. Cheng, L. Tao, Z.-G. Liu, M. X. Huo*, X. J. Wang*, and Y. Sui*; “Enhanced orbital fluctuations in Mg-doped MnV2O4 single crystals”; Physical Review B (2019) 100, 224418.【PDF】
21. L. Wang, C. X. Wang, Z. Y. Liu, J.-G. Cheng, Y. T. Song, Y. G. Shi*, and Y. F. Yang*; “Magnetic phase diagrams of the ferromagnetic Kondo lattice CdPb2Al8”; Physical Review B (2019) 100, 085122. 【PDF】
22. A. Nigro, P. Marra, C. Autieri, W. Wu, J.-G. Cheng, J. L. Luo, and C. Noce*; “Resistivity measurements unveils microscopic properties of CrAs”; EPL (2019) 125, 57002.【PDF】
23. Y. Cui, Z. Hu, J.-S. Zhang, W. L. Ma, M. W. Ma, Z. Ma, C. Wang, J.-Q. Yan, J. P. Sun, J.-G. Cheng, S. Jia, Y. Li, J.-S. Wen, H.-C. Lei, P. Yu, W. Ji, and W.-Q. Yu*; “Ionic-liquid-gating induced protonation and superconductivity in FeSe, FeSe0.93S0.07, ZrNCl, 1T-TaS2, and Bi2Se3”; Chinese Physics Letters (2019) 36, 077401.【PDF】
24. K. Ishigaki*, J. Gouchi, S. Nagasaki, J.-G. Cheng, and Y. Uwatoko*; “Development of two-stage multianvil apparatus for low temperature measurements”; Papers in Physics (2019) 11, 110006. 【PDF】
25. Z. D. Liu*, L. Dubrovinsky, C. McCammon, S. V. Ovsyannikov, I. Koemets, L. Y. Chen, Q. Cui, N. Su, J.-G. Cheng, T. Cui, B. B. Liu, and T. Katsura; “A new (Mg0.5Fe3+0.5)(Si0.5Al3+0.5)O3 LiNbO3-type phase synthesized at lower mantle conditions”; American Mineralogist (2019) 104, 1213-1216.【PDF】
26. S. Wang, Y. Q. Zhang, S. X. Xu, K. Ishigaki, K. Matsubayashi, J.-G. Cheng, H. Hosono, Y. Uwatoko; “Robust two-gap strong coupling superconductivity associated with low-lying phonon modes in pressurized Nb5Ir3O superconductors”; Chinese Physics B (2019) 28, 107401.【PDF】

2018年发表论文

1. J. P. Sun#, P. Shahi#, H. X. Zhou#, Y. L. Huang, K. Y. Chen, B. S. Wang, S. L. Ni, N. N. Li, K. Zhang, W. G. Yang, Y. Uwatoko, G. Xing, J. Sun, D.J. Singh, K. Jin, F. Zhou, G. M. Zhang, X. L. Dong*, Z. X. Zhao, and J.-G. Cheng*; “Reemergence of high-Tc superconductivity in the (Li1-xFex)OHFe1-ySe under high pressure”; Nature Communications (2018) 9, 380. 【PDF】
2. P. Shahi, D. J. Singh*, J. P. Sun, L. X. Zhao, G. F. Chen, Y. Y. Lv, J. Li, J.-Q. Yan, D. G. Mandrus, and J.-G. Cheng*; “Bipolar conduction as the possible origin of the electronic transition in pentatellurides: metallic vs semiconducting behavior”; Physical Review X (2018), 8, 021055. 【PDF】
3. M. Matsuda#, F. K. Lin#, R. Yu#, J.-G. Cheng*, W. Wu, , J. P. Sun, J. H. Zhang, P. J. Sun, K. Matsubayashi, T. Miyake, T. Kato, Y.-Q. Yan, M. B. Stone, Qimiao Si, J. L. Luo, and Y. Uwatoko; “Evolution of magnetic double helix and quantum criticality near a dome of superconductivity in CrAs”; Physical Review X (2018) 8, 031017.【PDF】
4. X. Li#, J. P. Sun#, P. Shahi, M. Gao, A. H. MacDonald, Y. Uwatoko, T. Xiang, J. B. Goodenough*, J.-G. Cheng*, J.-S. Zhou*; “Pressure-induced phase transitions and superconductivity in a black phosphorus single crystal”; PNAS (2018) 115, 9935.【PDF】
5. Y. Y. Jiao, J. P. Sun, P. Shahi, Q. Cui, X. H. Yu, Y. Uwatoko, B. S. Wang, J. A. Alonso, H. M. Weng, and J.-G. Cheng*; “Effect of chemical and hydrostatic pressure on the cubic pyrochlore Cd2Ru2O7”; Physical Review B (2018) 98, 075118.【PDF】
6. P. Shahi#, J. P. Sun#, S. H. Wang#, Y. Y. Jiao, K. Y. Chen, S. S. Sun, H. C. Lei*, Y. Uwatoko, B. S. Wang, and J.-G. Cheng*; “High-Tc superconductivity up to 55 K under high pressure in the heavily electron doped Lix(NH3)yFe2Se2 single crystal”; Physical Review B (2018) 97, 020508(R). 【PDF】
7. Y. Y. Jiao, Q. Cui, P. Shahi, N. N. Wang, N. Su, B. S. Wang, M. T. Fernandez-Diaz, J. A. Alonso, J.-G. Cheng*; “High pressure synthesis, structural, transport, and magnetic properties of the rutile-type Cr2ReO6 and CrReO4”; Physical Review B (2018) 97, 014426.【PDF】
8. J.-G. Cheng*, B. S. Wang, J. P. Sun, and Y. Uwatoko; “Cubic anvil cell apparatus for high-pressure and low-temperature physical property measurements”; Chinese Physical B (2018) 27, 077403. 【PDF】
9. J. P. Sun, P. Shahi, H. X. Zhou, S. L. Ni, S. H. Wang, H. C. Lei, B. S. Wang, X. L. Dong, Z. X. Zhao, J.-G. Cheng*; “Effect of high pressure on the intercalated FeSe high-Tc superconductors”; Acta Phys. Sin. (2018) 67, 207404.【PDF】
10. Y. Y. Jiao, J. P. Sun, P. Shahi, Z. H. Liu, B. S. Wang, Y. W. Long, and J.-G. Cheng*; “Effect of Pb doping on metallic state of cubic pyrochlore Cd2Ru2O7”; Acta Phys. Sin. (2018) 67, 127402.【PDF】
11. X. Li, W. M. Xu, M. A. McGuire, Y. Cho, M. C. Downer, Y. Wan, X. Y. Li, Z. Y. Li, Q. Cui, J.-G. Cheng, J. B. Goodenough, J.-S. Zhou*; “Spin freezing into a disordered state in CaFeTi2O6 synthesized under high pressure”; Physical Review B (2018) 98, 064201. 【PDF】
12. B. S. Wang*, X. Luo, K. Ishigaki, K. Matsubayashi, J.-G. Cheng, Y. P. Sun, and Y. Uwatoko; “Two distinct superconducting phases and pressure-induced crossover from type-II to type-I superconductivity in the spin-orbit-coupled superconductors BaBi3 and SrBi3”; Physical Review B (2018) 98, 220506(R). 【PDF】
13. B. S. Wang*, Y. Liu, X. Luo, K. Ishigaki, K. Matsubayashi, W. J. Lu, Y. P. Sun*, J.-G. Cheng, and Y. Uwatoko*; “Universal phase diagram of superconductivity and charge density wave versus high hydrostatic pressure in pure and Se-doped 1T-TaS2”; Physical Review B (2018) 97, 220504(R).【PDF】
14. Y. J. Liu, J. F. Wang*, X. F. Sun*, J.-S. Zhou, Z. C. Xia, Z. W. Ouyang, M. Yang, C. B. Liu, R. Chen, J.-G. Cheng, Y. Kohama, M. Tokunaga, and K. Kindo; “High-field phase diagram and phase transitions in hexagonal manganite ErMnO3”; Physical Review B (2018) 97, 214419.【PDF】
15. J. H. Dai, Y. Y. Yin, X. Wang, X. D. Shen, Z. H. Liu, X. B. Ye, J.-G. Cheng, C. Q. Jin, G. H. Zhou, Z. W. Hu, S. C. Weng, X. G. Wan, Y. W. Long; “Pentavalent iridium pyrochlore Cd2Ir2O7: A prototype material system for competing crystalline field and spin-orbit coupling”; Physical Review B (2018) 97, 085103.【PDF】
16. O. Cyr-Choiniere, R. Daou, F. Laliberte, C. Collignon, S. Badoux, D. LeBoeuf, J. Chang, B. J. Ramshaw, D. A. Bonn, W. N. Hardy, R. Liang, J.-Q. Yan, J.-G. Cheng, J.-S. Zhou, J. B. Goodenough, S. Pyon, T. Takayama, H. Takagi, N. Doiron-Leyraud, L. Taillefer; “Pseudogap temperature T* of cuprate superconductors from the Nernst effect”; Physical Review B (2018) 97, 064502.【PDF】
17. K. Zhao, J. K. Glasbrenner, H. Gretarsson, D. Schmitz, J. Bednarcik, M. Etter, J. P. Sun, R. S. Manna, A. Al-Zein, S. Lafuerza, W. Scherer, J.-G. Cheng, and P. Gegenwart; “Collapsed tetragonal phase as a strongly covalent and fully nonmagnetic state: Persistent magnetism with interlayer As-As bond formation in Rh-doped Ca0.8Sr0.2Fe2As2”; Physical Review B (2018) 97, 020510(R).【PDF】
18. J.-Q. Yan, M. Ochi, H. B. Cao, B. Saparov, J.-G. Cheng, Y. Uwatoko, R. Arita, B. C. Sales, and D. G. Mandrus; “Magnetic order of Nd5Pb3 single crystal”; Journal of Physics: Condensed Matter (2018) 30, 135801.【PDF】
19. A. Singh, P. Shahi, A. K. Ghosh, J.-G. Cheng, and S. Chatterjee; “Enhancement in power factor due to anti-correlation between electrical conductivity and thermopower and induced magnetic ordering in high mobility Zn doped Bi2Te3 topological insulator”; Journal of Alloys and Compounds (2018) 731, 297-302.【PDF】
20. M. Matsuda, S. E. Dissanayake, J.-G. Cheng, J. Ma, J.-Q. Yan, and Y. Uwatoko; “Polarized neutron diffraction study in helical magnetic phases of MnP”; Physica B (2018) 551, 115-117. 【PDF】

1. J. P. Sun,G. Z. Ye, P. Shahi, J.-Q. Yan, K. Matsuura, H. Kontani,G. M. Zhang, Q. Zhou, B. C. Sales, T. Shibauchi, Y. Uwatoko,D. J. Singh,* and J.-G. Cheng; “High-Tc Superconductivity in FeSe at High Pressure: Dominant Hole Carriers and Enhanced Spin Fluctuations”; Physical Review Letters 18, 147004 (2017).【PDF】
2. Yuanji Xu, Min Liu, Ping Zheng, Xiangrong Chen, J.-G. Cheng,Jianlin Luo, Wenhui Xie and Yi-feng Yang; “First-principles calculations of the magnetic and electronic structures of MnP under pressure”; J. Phys.: Condens. Matter 29 (2017) 244001.【PDF】
3. Zhenhai Yu, Wei Wu, Pengchao Lu, Jinggeng Zhao,Jinguang Cheng, Qingyang Hu, Ye Yuan, Xin Li, Cuiying Pei,Fengjiao Chen, Zhipeng Yan, Shuai Yan, Ke Yang, Jian Sun,Jianlin Luo, and Lin Wang; “Structural evolution behavior of manganese monophosphide under high pressure:experimental and theoretical study”; J. Phys.: Condens. Matter 29 (2017) 254002.【PDF】
4. Bosen Wang,* Yu Liu, Kento Ishigaki,Kazuyuki Matsubayashi, Jinguang Cheng,Wenjian Lu,Yuping Sun,and Yoshiya Uwatoko; “Pressure-induced bulk superconductivity in a layered transition-metal dichalcogenide 1T-tantalum selenium”; PHYSICAL REVIEW B 95, 220501(R) (2017).【PDF】
5. W. T. Jin, J.-P. Sun, G. Z.Ye, Y. Xiao, Y. Su, K. Schmalz, S. Nandi, Z. Bukowski, Z. Guguchia, E. Feng, Z. Fu & J.-G. Cheng; “Hydrostatic pressure effects on the static magnetism in Eu(Fe0.925Co0.075)2As2”; Sci. Rep. 7,3532.【PDF】
6. Yan Li, Jinguang Cheng,José Antonio Alonso,John B. Goodenough,and Jianshi Zhou; “High-Pressure Synthesis, Crystal Structure, and Magnetic and Transport Properties of a Six-Layered SrRhO3”; Inorg. Chem. 2017, 56, 8187−8194.【PDF】
7. Le Wang , Zhaoming Fu, Jianping Sun, Min Liu, Wei Yi, Changjiang Yi, Yongkang Luo, Yaomin Dai, Guangtong Liu, Yoshitaka Matsushita, Kazunari Yamaura, Li Lu, Jin-Guang Cheng, Yi-feng Yang, Youguo Shi, and Jianlin Luo; “Heavy fermion behavior in the quasi-one-dimensional Kondo lattice CeCo2Ga8”; npj Quantum Materials (2017).【PDF】
8. Yan Li(李妍), Zhao Sun(孙朝), Jia-Wei Cai(蔡嘉伟), Jian-Ping Sun(孙建平), Bo-Sen Wang(王铂森),Zhi-Ying Zhao(赵志颖), Y. Uwatoko, Jia-Qiang Yan(闫加强) Jin-Guang Cheng(程金光)*; “Pressure-Induced Charge-Order Melting and Reentrant Charge Carrier Localization in the Mixed-Valent Pb3Rh7O15 ∗”; CHIN. PHYS. LETT. Vol. 34, No. 8 (2017) 087201.【PDF】
9. Jianlin Luo and J.-G. Cheng; “Special issue on pressure-induced superconductivity in CrAs and MnP”; J. Phys.: Condens. Matter 29 (2017) 440301.【PDF】
10. Cheng Zhang,Jianping Sun,Fengliang Liu, Awadhesh Narayan, Nana Li,Xiang Yuan, Yanwen Liu, Jianhong Dai, Youwen Long,Yoshiya Uwatoko,Jian Shen, Stefano Sanvito,Wenge Yang,* Jinguang Cheng, and Faxian Xiu; “Evidence for pressure-induced node-pair annihilation in Cd3As2”; PHYSICAL REVIEW B 96, 155205 (2017).【PDF】
11. 孙建平, 王铂森 and 程金光; “FeSe单晶的高压研究进展”; Chin Sci Bull, 2017, 62:3925–3934.【PDF】
12. J P Sun, Y Y Jiao, C L Yang1, W Wu, C J Yi, B S Wang,Y G Shi1, J L Luo, Y Uwatoko and J-G Cheng; “Effect of hydrostatic pressure on the superconducting properties of quasi-1D superconductor K2Cr3As3”; J. Phys.: Condens. Matter 29 (2017) 455603.【PDF】
13. K. Matsuura, Y. Mizukami, Y. Arai, Y. Sugimura, N. Maejima, A. Machida, T. Watanuki, T. Fukuda, T. Yajima, Z. Hiroi, K.Y. Yip, Y.C. Chan, Q. Niu, S. Hosoi, K. Ishida, K. Mukasa, S. Kasahara, J.-G. Cheng, S.K. Goh, Y. Matsuda , Y. Uwatoko & T. Shibauchi; “Maximizing Tc by tuning nematicity and magnetism in FeSe1−xSx superconductors”; NATURE COMMUNICATIONS 8: 1143.【PDF】
14. Changjiang Yi, Shuai Yang,Meng Yang,Le Wang,Yoshitaka Matsushita,Shanshan Miao,Yuanyuan Jiao, Jinguang Cheng, Yongqing Li, Kazunari Yamaura,* Youguo Shi, and Jianlin Luo; “Large negative magnetoresistance of a nearly Dirac material: Layered antimonide EuMnSb2”; PHYSICAL REVIEW B 96, 205103 (2017).【PDF】
15. 程金光*，高压调控的磁性量子临界点和非常规超导电性;Acta Physica Sinica, 66, 037401 (2017).【PDF】
16. Y. Q. Cai, Y. Y. Jiao, Q. Cui, J. W. Cai, Y. Li, B. S. Wang,M. T. Fernández-Díaz,M. A. McGuire, J.-Q. Yan, J. A. Alonso,* and J.-G. Cheng; “Giant reversible magnetocaloric effect in the pyrochlore Er2Mn2O7 due to a cooperative two-sublattice ferromagnetic order”; PHYSICAL REVIEW MATERIALS 1, 064408 (2017).【PDF】
17. 程金光*，吕世杰；“高温高压合成新型量子功能材料”；现代物理知识（2017），29（2），51-55.【PDF】